CN112556398A

CN112556398A - Textile industry is used for gaseous processing system of drying equipment

Info

Publication number: CN112556398A
Application number: CN202011342906.3A
Authority: CN
Inventors: 夏海洋
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-26
Filing date: 2020-11-26
Publication date: 2021-03-26

Abstract

The invention belongs to the technical field of textiles, in particular to a gas treatment system for drying equipment in textile industry, and aims to solve the problem of low treatment efficiency of drying gas in the prior art, the invention provides a scheme which comprises a treatment cylinder, wherein an air inlet pipe is fixed at the middle position of the top of the treatment cylinder, a water inlet pipe is fixed at the middle position of the inner wall of the bottom of the treatment cylinder, a cooling cylinder with an opening at the top end is fixed at the top end of the water inlet pipe, a circulation cavity is formed in the cooling cylinder, the top end of the water inlet pipe is communicated with the bottom of the circulation cavity, and water outlet pipes extending out of the treatment cylinder are fixed on two sides of the top end of the circumferential outer wall of. The invention makes the drying gas spread upwards from the bottom in the cooling cylinder, and then discharged from the gas outlet pipe at the bottom end from the top of the outer wall of the cooling cylinder downwards, and the heat conducting pieces distributed annularly on the outer wall of the gas inlet net cylinder and the heat conducting plate contacted with the heat conducting pieces are matched, so that the inlet gas is dispersed and stayed in the cooling cylinder, and the gas treatment effect is improved.

Description

Textile industry is used for gaseous processing system of drying equipment

Technical Field

The invention relates to the technical field of textiles, in particular to a system for treating air of drying equipment in textile industry.

Background

The weaving principle is a general name taken from spinning and weaving, but with the continuous development and perfection of a weaving knowledge system and a subject system, the current weaving is not only the traditional hand-made spinning and weaving, but also clothing, industrial and decorative textiles produced by a non-woven fabric technology, a modern three-dimensional weaving technology, a modern electrostatic nano-web forming technology and the like, and the modern weaving refers to a multi-scale structure processing technology of fibers or fiber aggregates.

In the in-process of textile production processing, can utilize the steam of circulation to carry out drying operation to textile materials often, if the gas after drying textile materials directly discharges and can cause the wasting of resources, often directly carry out heat exchange through the cold water pipe of outside parcel among the prior art and come to cool down gas and energy recovery, but the in-process of operation is handled in the reality often, actual cooling inefficiency and poor to gaseous treatment effect.

Disclosure of Invention

Based on the technical problem of low treatment efficiency of drying gas in the prior art, the invention provides a treatment system for drying equipment gas in textile industry.

The invention provides a treatment system for drying equipment gas in textile industry, which comprises a treatment cylinder, wherein an air inlet pipe is fixed at the middle position of the top of the treatment cylinder, a water inlet pipe is fixed at the middle position of the inner wall of the bottom of the treatment cylinder, a cooling cylinder with an opening at the top end is fixed at the top end of the water inlet pipe, a circulation cavity is formed in the cooling cylinder, the top end of the water inlet pipe is communicated with the bottom of the circulation cavity, water outlet pipes extending out of the treatment cylinder are fixed at two sides of the top end of the circumferential outer wall of the cooling cylinder, a cooling cavity is formed in the cooling cylinder, a connecting cavity is formed between the outer wall of the cooling cylinder and the inner wall of the treatment cylinder, the bottom end of the air inlet pipe is connected with an air inlet net cylinder with an opening at the top end, the bottom end of the air inlet net cylinder extends into the bottom of the cooling cavity, the inner wall of the bottom of the treatment cylinder is arranged into an arc structure, a liquid guide pipe extending out of the treatment cylinder is fixed on the inner wall of the bottom of the cooling cavity, and a liquid outlet pipe extending out of the treatment cylinder is connected to the bottom end of the connecting cavity.

Preferably, a heat conducting cylinder is fixedly connected between the bottom end of the air inlet pipe and the top end of the air inlet net cylinder, a filter screen plate with an annular structure is fixed at the top of the circumferential inner wall of the cooling cavity, and the inner wall of the filter screen plate is fixedly connected with the outer wall of the heat conducting cylinder.

Preferably, the bottom of the circumferential outer wall of the heat conducting cylinder is fixed with heat conducting pieces distributed in an annular array, the bottom ends of the heat conducting pieces incline towards one side far away from the air inlet net cylinder, and the heat conducting pieces are arranged into an arc-shaped structure arched towards one side close to the air inlet net cylinder.

Preferably, a plurality of heat conducting plates are fixed on the circumferential inner wall of the cooling cylinder at positions corresponding to the heat conducting members, one side of each heat conducting plate close to the air inlet net cylinder is inclined downwards, and one side of each heat conducting plate close to the air inlet net cylinder is in contact with the heat conducting members.

Preferably, a through groove is formed in a position, corresponding to the heat conducting plate, of one side of the heat conducting part, a guide groove of an arc-shaped structure is formed in the bottom of the heat conducting plate, and the width of the guide groove is gradually reduced towards one side, away from the heat conducting part, of the guide groove.

Preferably, a plurality of flow collecting hoppers are fixed on the outer circumferential wall of the cooling cylinder, the flow collecting hoppers are arranged to be of a semi-conical structure, a plurality of leakage holes are formed in the outer circumferential wall of each flow collecting hopper, a horizontally placed baffle is fixed at a position, corresponding to the flow collecting hoppers, on the inner circumferential wall of the treatment cylinder, the baffle is located above the flow collecting hoppers, and the outer walls of the tops and the bottoms of the baffles are all arranged to be of a corrugated structure.

Preferably, the inner wall of the circumference of the cooling cylinder is located at the top and the bottom of the filter screen plate and is fixed with a plurality of groups of heat conducting fins distributed in an annular array, and one group of heat conducting fins are provided with a second heat conducting fin, a first heat conducting fin and a third heat conducting fin distributed in the vertical direction, the first heat conducting fin is located at a position between the second heat conducting fin and the third heat conducting fin, the second heat conducting fin is located at one side of the first heat conducting fin close to the filter screen plate, and the distances between one side of the first heat conducting fin, one side of the third heat conducting fin and one side of the second heat conducting fin close to the heat conducting cylinder and the heat conducting cylinder are.

Preferably, the top middle position that first conducting strip is located the cooling intracavity has seted up logical groove, and the top both ends that second conducting strip and third conducting strip are located the cooling intracavity have all seted up the intercommunication groove that pierces through the setting.

Preferably, the position that handles a section of thick bamboo top inner wall and cooling cylinder correspond is fixed with the drainage pole that a plurality of annular array distribute, handles a section of thick bamboo top internal fixation and has the auxiliary rod that a plurality of annular array distribute, sets up interval distribution between drainage pole and the auxiliary rod, and the length of drainage pole is greater than the length of auxiliary rod, and the bottom of drainage pole stretches into the inside to the cooling chamber, and the bottom of auxiliary rod is located the top of cooling cylinder top outer wall.

Preferably, the installation cavity has all been seted up to the inside of drainage pole and auxiliary rod, and the inside of installation cavity is fixed with the magnetic path.

The beneficial effects of the invention are as follows:

1. the utility model provides a textile industry is used for gaseous processing system of drying equipment, through letting in and disperse the bottom in the cooling cylinder with drying gas from intake pipe and air inlet net section of thick bamboo, and make drying gas upwards creep from the bottom in the cooling cylinder, and again from the top of cooling cylinder outer wall downwards and discharge from the outlet duct of bottom, make the circulation chamber circulation cooling water in the cooling cylinder casing, and increase the contact time and the region of drying gas and cooling cylinder, and heat conduction effect and treatment effeciency when guaranteeing circulative cooling, the heat-conducting piece that matches air inlet net section of thick bamboo outer wall annular distribution and the heat-conducting plate that contacts with the heat-conducting piece, and make admit air disperse and stop in the cooling cylinder, in order to cooperate the heat-conducting plate to realize rapid cooling, and through the collision of solid impurity in heat-conducting piece and the heat-conducting plate and stay, improve the treatment effect to gas.

2. The utility model provides a textile industry is used for gaseous processing system of drying equipment, be fixed with a plurality of mass flows fill through the outer wall at the cooling cylinder, the baffle of cooperation mass flow fill top ripple structure, and increase the gaseous heat exchange effect to the cooling cylinder outer wall, and further improve the effect that blocks of solid impurity in the gas, and make the partial condensation in the cooling cylinder generate water in the cooling cylinder, the outer condensation of cooling cylinder generates water in the mass flow fill, and make the comdenstion water carry out the heat exchange with follow-up gas contact, increase actual treatment efficiency in the time of the improvement to gas treatment effect.

3. The utility model provides a textile industry is used for gaseous processing system of drying equipment, through increase a section of heat conduction section of thick bamboo between intake pipe and the net section of thick bamboo that admits air, be fixed in the outer wall of heat conduction section of thick bamboo with the heat-conducting piece, and the intermediate position at the heat conduction section of thick bamboo outer wall is fixed with filter plate, utilize heat-conduction to produce great difference in temperature between heat conduction piece and the heat-conducting plate and improve the treatment effect of cooling to gas, and filter plate position is through the first conducting strip that stretches out the length difference, second conducting strip and third conducting strip produce the difference in temperature and increase the air current motion, be convenient for guide solid impurity to stop in the filter plate with the position that the conducting strip corresponds, increase cooling efficiency and treatment effect.

4. The utility model provides a textile industry is used for gaseous processing system of drying equipment, through be provided with a plurality of interval distribution's drainage pole and auxiliary rod in the position that handles bobbin tip inner wall and cooling cylinder correspond, and the length of drainage pole downwardly extending is greater than the length of auxiliary rod to through the air current motion difference and increase gaseous dwell time in order to improve the cooling treatment effect to gas, and cooperate the magnetic path in drainage pole and the auxiliary rod to produce magnetic field and increase the adsorption effect to the dust, in order further to strengthen the filtration treatment effect to gas.

Drawings

FIG. 1 is a schematic sectional view of an overall air handling system for a drying apparatus in the textile industry according to the present invention;

FIG. 2 is a schematic view of a heat transfer element of a drying apparatus gas treatment system for the textile industry according to the present invention;

FIG. 3 is a schematic view of a manifold hopper configuration of a drying apparatus gas handling system for the textile industry in accordance with the present invention;

FIG. 4 is a schematic diagram of a screen panel structure of a drying equipment gas treatment system for textile industry according to the present invention;

FIG. 5 is a schematic view of the arrangement of the drainage bars and the auxiliary bars of the air treatment system for drying equipment in textile industry according to the present invention;

FIG. 6 is a schematic cross-sectional view of a drainage bar of a gas treatment system for a drying device in the textile industry according to the present invention.

In the figure: 1 treatment cylinder, 2 air inlet pipes, 3 water inlet pipes, 4 cooling cylinders, 5 water outlet pipes, 6 circulation chambers, 7 cooling chambers, 8 connecting chambers, 9 air inlet net cylinders, 10 air outlet pipes, 11 liquid guide pipes, 12 liquid outlet pipes, 13 filter screen plates, 14 heat conducting pieces, 15 heat conducting plates, 16 through grooves, 17 flow guide grooves, 18 flow collecting hoppers, 19 leakage holes, 20 baffle plates, 21 heat conducting cylinders, 22 first heat conducting sheets, 23 second heat conducting sheets, 24 third heat conducting sheets, 25 through grooves, 26 communication grooves, 27 flow guide rods, 28 auxiliary rods and 29 magnetic blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1

Referring to fig. 1-4, a processing system for drying equipment gas in textile industry comprises a processing cylinder 1, an air inlet pipe 2 is fixed at the middle position of the top of the processing cylinder 1, a water inlet pipe 3 is fixed at the middle position of the inner wall of the bottom of the processing cylinder 1, a cooling cylinder 4 with an opening at the top end is fixed at the top end of the water inlet pipe 3, a circulation cavity 6 is arranged in the cooling cylinder 4, the top end of the water inlet pipe 3 is communicated with the bottom of the circulation cavity 6, water outlet pipes 5 extending out of the processing cylinder 1 are fixed at both sides of the top end of the circumferential outer wall of the cooling cylinder 4, a cooling cavity 7 is formed in the cooling cylinder 6, a connecting cavity 8 is formed between the outer wall of the cooling cylinder 6 and the inner wall of the processing cylinder 1, an air inlet net cylinder 9 with an opening at the top end is connected to the bottom of the air inlet net cylinder 9, the inner wall of the bottom of the processing cylinder 1 is arranged into an, and an air outlet pipe 10 is fixed on one side of the inner wall of the bottom of the treatment cylinder 1, which is positioned on the water inlet pipe 3, a liquid guide pipe 11 extending out of the treatment cylinder 1 is fixed on the inner wall of the bottom of the cooling cavity 7, and a liquid outlet pipe 12 extending out of the treatment cylinder 1 is connected with the bottom end of the connecting cavity 8.

In the invention, a heat-conducting cylinder 21 is fixedly connected between the bottom end of an air inlet pipe 2 and the top end of an air inlet net cylinder 9, a filter screen plate 13 with an annular structure is fixed at the top of the circumferential inner wall of a cooling cavity 7, and the inner wall of the filter screen plate 13 is fixedly connected with the outer wall of the heat-conducting cylinder 21;

the bottom of the outer wall of the circumference of the heat conducting cylinder 21 is fixed with heat conducting pieces 14 distributed in an annular array, the bottom end of each heat conducting piece 14 inclines towards one side far away from the air inlet net cylinder 9, each heat conducting piece 14 is arranged into an arc-shaped structure which is arched towards one side close to the air inlet net cylinder 9, the positions, corresponding to the heat conducting pieces 14, of the inner wall of the circumference of the cooling cylinder 4 are fixed with a plurality of heat conducting plates 15, one sides, close to the air inlet net cylinder 9, of the heat conducting plates 15 incline downwards, one sides, close to the air inlet net cylinder 9, of the heat conducting plates 15 are contacted with the heat conducting pieces 14, penetrating grooves 16 are formed in the positions, corresponding to the heat conducting plates 15, of one sides of the heat conducting pieces 14, the bottoms of the heat conducting plates 15 are provided with;

the circumference outer wall of cooling cylinder 4 is fixed with a plurality of mass flow fill 18, and mass flow fill 18 sets up to half cone structure, and a plurality of small openings 19 have been seted up to the circumference outer wall of mass flow fill 18, and the position that handles a 1 circumference inner wall and mass flow fill 18 and correspond is fixed with the baffle 20 of horizontal placement, and baffle 20 is located the top of mass flow fill 18, and the top of baffle 20 and bottom outer wall all set up the ripple structure.

When the invention is used: the drying gas is introduced from the air inlet pipe 2 and the air inlet net cylinder 9 and is dispersed to the bottom in the cooling cylinder 4, so that the drying gas upwards spreads from the bottom in the cooling cylinder 4 and then downwards flows from the top of the outer wall of the cooling cylinder 4 and is discharged from the air outlet pipe at the bottom, the cooling water is circulated in the circulation cavity 6 in the shell of the cooling cylinder 4, so as to increase the contact time and the contact area of the drying gas and the cooling cylinder 4, so as to ensure the heat conduction effect and the treatment efficiency in the circulation cooling process, the inlet gas is dispersed and stayed in the cooling cylinder 4 by matching with the heat conduction pieces 14 annularly distributed on the outer wall of the air inlet net cylinder 9 and the heat conduction plates 15 contacted with the heat conduction pieces 14, so as to realize the rapid cooling by matching with the heat conduction plates 15, and the solid impurities in the gas are collided and stayed by the heat conduction pieces 14 and the heat conduction plates 15, so as to improve the treatment effect on the gas, and increase the heat exchange effect to cooling cylinder 4 outer wall gas, and further improve the effect of blockking of solid impurity in the gas to make the partial condensation water that generates in cooling cylinder 4, the condensation water that generates outside cooling cylinder 4 is in the mass flow fill 18, and makes the comdenstion water carry out the heat exchange with follow-up gas contact, increases actual treatment efficiency when improving gas treatment effect.

Example 2

Referring to fig. 1-6, a system for treating air for drying equipment in textile industry, a plurality of groups of heat conducting fins distributed in annular array are fixed on the circumferential inner wall of a cooling cylinder 4 at the top and the bottom of a filter screen plate 13, and a group of heat conducting fins is provided with a second heat conducting fin 23, a first heat conducting fin 22 and a third heat conducting fin 24 which are distributed in the vertical direction, the first heat conducting fin 22 is positioned between the second heat conducting fin 23 and the third heat conducting fin 24, the second heat conducting fin 23 is positioned on one side of the first heat conducting fin 22 close to the filter screen plate 13, the distances between one sides of the first heat conducting fin 22, the third heat conducting fin 24 and the second heat conducting fin 23 close to the heat conducting cylinder 21 and the heat conducting cylinder 21 are gradually reduced, a through groove 25 is arranged at the middle position of the top of the first heat conducting fin 22 in the cooling cavity 7, the two ends of the top of the second heat-conducting strip 23 and the top of the third heat-conducting strip 24, which are positioned in the cooling cavity 7, are both provided with a through communicating groove 26;

handle the drainage pole 27 that 1 top inner wall of a section of thick bamboo and cooling cylinder 4 correspond, the fixed position that handles 1 top internal fixation of a section of thick bamboo has a plurality of annular array to distribute, interval distribution is set to between drainage pole 27 and the auxiliary rod 28, the length of drainage pole 27 is greater than the length of auxiliary rod 28, the bottom of drainage pole 27 stretches into the inside to cooling chamber 7, the bottom of auxiliary rod 28 is located the top of 4 top outer walls of cooling cylinder, the installation cavity has all been seted up to the inside of drainage pole 27 and auxiliary rod 28, and the inside of installation cavity is fixed with magnetic path 29.

When the invention is used: utilize heat-conduction to produce great difference in temperature between heat-conducting member 14 and the heat-conducting plate 15 and improve the cooling treatment effect to gaseous, and filter plate 13 position produces the difference in temperature and increases the air current motion through the first conducting strip 22, second conducting strip 23 and the third conducting strip 24 that stretch out the length difference, be convenient for guide the solid impurity and stop in filter plate 13 and the position that the conducting strip corresponds, increase cooling efficiency and the treatment effect to gaseous, utilize simultaneously different length's drainage rod 27 and auxiliary rod 28 to make the air current motion, and increase gaseous dwell time in order to improve the cooling treatment effect to gaseous, and cooperate the magnetic path 29 in drainage rod 27 and the auxiliary rod 28 to produce the magnetic field and increase the adsorption effect to the dust, with further reinforcing the filtration treatment effect to gaseous.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The textile industry is used for drying the gaseous processing system of equipment, including handling a section of thick bamboo (1), the intermediate position at handling a section of thick bamboo (1) top is fixed with intake pipe (2), its characterized in that, the intermediate position of handling a section of thick bamboo (1) bottom inner wall is fixed with inlet tube (3), and the top of inlet tube (3) is fixed with open-ended cooling cylinder (4), circulation chamber (6) have been seted up to the inside of cooling cylinder (4), and the top of inlet tube (3) communicates with the bottom of circulation chamber (6), and the top both sides of cooling cylinder (4) circumference outer wall all are fixed with outlet pipe (5) that stretch out outside handling a section of thick bamboo (1), the inside of cooling cylinder (6) constitutes cooling chamber (7), and constitutes between the outer wall of cooling cylinder (6) and the inner wall of handling a section of thick bamboo (1) and have connecting chamber (8), the bottom of intake pipe (2) is connected with open-ended net section of thick bamboo (9, and the bottom of the air inlet net barrel (9) extends into the bottom of the cooling chamber (7), the inner wall of the bottom of the treatment barrel (1) is set into an arc-shaped structure with an upward arched middle position, one side of the inner wall of the bottom of the treatment barrel (1) located on the water inlet pipe (3) is fixed with an air outlet pipe (10), the inner wall of the bottom of the cooling chamber (7) is fixed with a liquid guide pipe (11) extending out of the treatment barrel (1), and the bottom of the connection chamber (8) is connected with a liquid outlet pipe (12) extending out of the treatment barrel (1).

2. A drying equipment gas processing system in textile industry according to claim 1, characterized in that a heat conducting cylinder (21) is fixedly connected between the bottom end of the air inlet pipe (2) and the top end of the air inlet net cylinder (9), a filter screen plate (13) with a ring structure is fixed on the top of the circumferential inner wall of the cooling chamber (7), and the inner wall of the filter screen plate (13) is fixedly connected with the outer wall of the heat conducting cylinder (21).

3. A textile industry air handling system for drying equipment according to claim 2, characterized in that the bottom of the outer circumferential wall of the heat conducting cylinder (21) is fixed with heat conducting members (14) distributed in an annular array, and the bottom ends of the heat conducting members (14) are inclined towards the side far away from the air inlet mesh cylinder (9), and the heat conducting members (14) are arranged in an arc structure which is arched towards the side near the air inlet mesh cylinder (9).

4. A treatment system for drying equipment gas in textile industry according to claim 3, characterized in that a plurality of heat conducting plates (15) are fixed on the inner wall of the circumference of the cooling cylinder (4) corresponding to the heat conducting members (14), and one side of the heat conducting plate (15) close to the air inlet net cylinder (9) is inclined downwards, and the side of the heat conducting plate (15) close to the air inlet net cylinder (9) is contacted with the heat conducting members (14).

5. The air treatment system for drying equipment in textile industry as claimed in claim 4, wherein the heat conducting plate (15) is provided with a through groove (16) at a position corresponding to one side of the heat conducting member (14), the bottom of the heat conducting plate (15) is provided with a flow guide groove (17) with an arc structure, and the width of the flow guide groove (17) is gradually reduced towards one side far away from the heat conducting member (14).

6. The processing system for drying equipment gas in textile industry according to any one of claims 3 to 5, characterized in that a plurality of collecting hoppers (18) are fixed on the outer circumferential wall of the cooling cylinder (4), the collecting hoppers (18) are arranged in a semi-conical structure, a plurality of leakage holes (19) are formed in the outer circumferential wall of each collecting hopper (18), a horizontally placed baffle (20) is fixed on the inner circumferential wall of the processing cylinder (1) corresponding to the collecting hoppers (18), the baffle (20) is positioned above the collecting hoppers (18), and the outer top and bottom walls of the baffle (20) are both arranged in a corrugated structure.

7. A drying equipment air processing system in textile industry according to claim 2, characterized in that the cooling cylinder (4) has a plurality of sets of heat conducting fins fixed on the top and bottom of the filter screen plate (13), and a set of heat conducting fins has a second heat conducting fin (23), a first heat conducting fin (22) and a third heat conducting fin (24) distributed vertically, the first heat conducting fin (22) is located between the second heat conducting fin (23) and the third heat conducting fin (24), the second heat conducting fin (23) is located on the side of the first heat conducting fin (22) close to the filter screen plate (13), and the distances between the sides of the first heat conducting fin (22), the third heat conducting fin (24) and the second heat conducting fin (23) close to the heat conducting cylinder (21) and the heat conducting cylinder (21) are gradually reduced.

8. The air treatment system for drying equipment in textile industry as claimed in claim 7, wherein the first heat conducting sheet (22) is provided with a through groove (25) at the middle position of the top in the cooling cavity (7), and the second heat conducting sheet (23) and the third heat conducting sheet (24) are provided with through grooves (26) at both ends of the top in the cooling cavity (7).

9. The textile industry air treatment system for the drying device in the textile industry is characterized in that a plurality of drainage rods (27) distributed in an annular array are fixed on the inner wall of the top of the treatment cylinder (1) corresponding to the cooling cylinder (4), a plurality of auxiliary rods (28) distributed in an annular array are fixed in the top of the treatment cylinder (1), the drainage rods (27) and the auxiliary rods (28) are distributed at intervals, the length of the drainage rods (27) is greater than that of the auxiliary rods (28), the bottom ends of the drainage rods (27) extend into the cooling cavity (7), and the bottom ends of the auxiliary rods (28) are located above the outer wall of the top of the cooling cylinder (4).

10. The air treatment system for drying equipment in textile industry as recited in claim 9, characterized in that the inside of the drainage rod (27) and the inside of the auxiliary rod (28) are both provided with a mounting cavity, and a magnet block (29) is fixed inside the mounting cavity.